Experiments have given rise to the contemporary quantum mechanical concepts like electron spin and electron intrinsic angular momentum. On the other hand, TOEBI tells that electron has its spinning vector, just like any spinning sphere would have. How do these two interpretations come along?
If we have a free electron in a magnetic field how does it behave according to TOEBI? Due to the arranged electrons on the magnetic poles (see Introduction to Theory of Everything by Illusion) our free electron aligns itself so that its spinning vector is perpendicular to the "magnetic" field lines. Such a alignment happens because of the FTEP fluxes ejected by electrons on the magnetic poles interact with the free electron's own FTEP flux. Due to more dense and spatially constrained incoming FTEP fluxes , free electron changes its spinning vector orientation accordingly (a.k.a. perpendicularly). But that's not the whole story.
When free electron is surrounded by these multiple FTEP fluxes coming in from many directions (correction: it should refer at electron's TOEBI defined spinning vector) it also starts to rotate around new axis which is aligned to the "magnetic" field lines. It simply reacts to the emerged FTEP flux (combination of all magnetic pole electron FTEP fluxes) having a certain rotation frequency. Details of this emerged FTEP flux need further research but obviously the frequency is depending on the amount of poles' electrons, hence depending on the strength of a magnetic field.
Now we have a free electron having its spinning vector aligned perpendicular to the magnetic field lines and on top of that, it spins around another axis which is aligned to the magnetic field lines. In this kind of configuration, the FTEP flux ejected by free electron passes a spot (i.e. detector) next to the magnetic field twice per one rotation around the axis aligned to the magnetic field lines. No need for the gyromagnetic ratio...
Free electron in a magnetic field is able to rotate (around the axis aligned to the magnetic field lines) either left (spin up) or right (spin down). This is the point where TOEBI and quantum mechanics shake their hands so to speak.
Above is only qualitative presentation for the mechanism behind quantum mechanics' electron spin concept. Things get more tricky when we have an electron bound to an atom, like in Stern-Gerlach Experiment. But that's something for a new blog post.